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15 - Generalized Additive Models and Nonparametric Regression

from III - Bayesian and Mixed Modeling

Published online by Cambridge University Press:  05 August 2014

Patrick L. Brockett
Affiliation:
University of Texas at Austin
Shuo-Li Chuang
Affiliation:
The University of Texas at Austin
Utai Pitaktong
Affiliation:
The University of Texas at Austin
Edward W. Frees
Affiliation:
University of Wisconsin, Madison
Richard A. Derrig
Affiliation:
Temple University, Philadelphia
Glenn Meyers
Affiliation:
ISO Innovative Analytics, New Jersey
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Summary

Chapter Preview. Generalized additive models (GAMs) provide a further generalization of both linear regression and generalized linear models (GLM) by allowing the relationship between the response variable y and the individual predictor variables xj to be an additive but not necessarily a monomial function of the predictor variables xj. Also, as with the GLM, a nonlinear link function can connect the additive concatenation of the nonlinear functions of the predictors to the mean of the response variable, giving flexibility in distribution form, as discussed in Chapter 5. The key factors in creating the GAM are the determination and construction of the functions of the predictor variables (called smoothers). Different methods of fit and functional forms for the smoothers are discussed. The GAM can be considered as more data driven (to determine the smoothers) than model driven (the additive monomial functional form assumption in linear regression and GLM).

Motivation for Generalized Additive Models and Nonparametric Regression

Often for many statistical models there are two useful pieces of information that we would like to learn about the relationship between a response variable y and a set of possible available predictor variables x1, x2, …, xk for y: (1) the statistical strength or explanatory power of the predictors for influencing the response y (i.e., predictor variable worth) and (2) a formulation that gives us the ability to predict the value of the response variable ynew that would arise under a given set of new observed predictor variables x1,new, x2,new, …, xk,new (the prediction problem).

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Chapter
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Publisher: Cambridge University Press
Print publication year: 2014

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References

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